Contents

Scardamalia & Bereiter distinguish between knowledge building and learning. They see learning as an internal, (almost) unobservable process that results in changes of beliefs, attitudes, or skills. By contrast, KB is seen as creating or modifying public knowledge. KB produces knowledge that lives ‘in the world’, and is available to be worked on and used by other people.

A good way to understand the difference between learning and knowledge building is by considering mathematics and scientific contents as examples of public knowledge. Furthermore, Bereiter in his book on Education and Mind (2002) based his observation of the educational value of KB on Karl Popper's ontological analysis of our existence as made up of three interacting worlds: World 1 (the physical), World 2 (the subjective) and World 3 (the locus of cultural products). Thus, learning takes place in World 2, while knowledge is built in World 3.[3]

Knowledge building refers to the process of creating new cognitive artifacts as a result of common goals, group discussions, and synthesis of ideas. These pursuits should advance the current understanding of individuals within a group, at a level beyond their initial knowledge level, and should be directed towards advancing the understanding of what is known about that topic or idea. The theory "encompasses the foundational learning, subskills, and socio-cognitive dynamics pursued in other approaches, along with the additional benefit of movement along the trajectory to mature education".[4]

Knowledge building can be considered as deep constructivism[5] that involves making a collective inquiry into a specific topic, and coming to a deeper understanding through interactive questioning, dialogue, and continuing improvement of ideas. Ideas are thus the medium of operation in KB environments. The teacher becomes a guide, rather than a director, and allows students to take over a significant portion of the responsibility for their own learning, including planning, execution, and evaluation.[5]

One of the hallmarks of KB is a sense of we superseding the sense of I, a feeling that the group is operating collectively, and not just as an assemblage of individuals. Discussion software can enable such an environment, one being Knowledge Forum, which supports many of the prerequisite processes of KB. Bereiter and colleagues [6] state that Knowledge building projects focus on understanding rather than on accomplishing tasks, and on collaboration rather than on controversy.

Setting children on a KB trajectory is a promising foundation for education in the knowledge age.[1]

Idea diversity. In the classroom, the diversity of ideas raised by students is necessary.

Rise above. Through a sustained improvement of ideas and understanding, students create higher level concepts.

Epistemic agency. Students themselves find their way in order to advance.

Community knowledge, collective responsibility. Students' contribution to improving their collective knowledge in the classroom is the primary purpose of the KB classroom.

Democratizing knowledge. All individuals are invited to contribute to the knowledge advancement in the classroom.

Symmetric knowledge advancement. A goal for Knowledge building communities is to have individuals and organizations actively working to provide a reciprocal advance of their knowledge.

Pervasive Knowledge building. Students contribute to collective KB.

Constructive uses of authoritative sources. All members, including the teacher, sustain inquiry as a natural approach to support their understanding.

Knowledge building discourse. Students are engaged in discourse to share with each other, and to improve the knowledge advancement in the classroom.

Concurrent, embedded, and transformative assessment. Students take a global view of their understanding, then decide how to approach their assessments. They create and engage in assessments in a variety of ways.

Popper, K. (1996). Knowledge and the Body-Mind Problem – In defence of interaction. (Edited by M. A. Notturno) London and New York: Routledge.

Oshima, J. (2005). Progressive Refinement of a CSCL-Based Lesson Plan for Improving Student Learning as Knowledge Building in the Period for the Integrated Study. Proceedings of the 2005 Conference on Computer Support for Collaborative Learning.